BUS 525: Managerial Economics Lecture 12 Pricing Strategies for Firms with Market Power
Dec 31, 2015
BUS 525: Managerial Economics
Lecture 12
Pricing Strategies for Firms with Market Power
OverviewOverviewI. Basic Pricing Strategies
– Monopoly & Monopolistic Competition – Cournot Oligopoly
II. Extracting Consumer Surplus– Price Discrimination Two-Part Pricing– Block Pricing Commodity Bundling
III. Pricing for Special Cost and Demand Structures– Peak-Load Pricing Transfer Pricing– Cross Subsidies
IV. Pricing in Markets with Intense Price Competition– Price Matching Randomized Pricing– Brand Loyalty
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Basic Rule for Profit Maximization: Basic Rule for Profit Maximization: an Algebraic Examplean Algebraic Example
• P = 10 - 2Q• C(Q) = 2Q• If the firm must charge a single price
to all consumers, the profit-maximizing price is obtained by setting MR = MC.
• 10 - 4Q = 2, so Q* = 2.• P* = 10 - 2(2) = 6.• Profits = (6)(2) - 2(2) = $8.
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Standard Pricing and Profits for Standard Pricing and Profits for Firms with Market PowerFirms with Market Power
Price
Quantity
P = 10 - 2Q
10
8
6
4
2
1 2 3 4 5
MC
MR = 10 - 4Q
Profits from standard pricing= $8
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A Simple Markup RuleA Simple Markup Rule• Suppose the elasticity of demand for
the firm’s product is EF.• Since MR* = P[(1 + EF)/ EF].• Setting MR = MC and simplifying yields
this simple pricing formula:P = [EF/(1+ EF)] MC.
• The optimal price is a simple markup over relevant costs!– More elastic the demand, lower markup.– Less elastic the demand, higher markup.– Higher the marginal cost higher the price
* for a firm with market power
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An ExampleAn Example• Elasticity of demand for Kodak film is -
2.
• P = [EF/(1+ EF)] MC
• P = [-2/(1 - 2)] MC• P = 2 MC• Price is twice marginal cost.• Fifty percent of Kodak’s price is margin
above manufacturing costs.
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Markup Rule for Cournot Markup Rule for Cournot OligopolyOligopoly
• Homogeneous product Cournot oligopoly.• N = total number of firms in the industry.
• Market elasticity of demand EM .
• Elasticity of individual firm’s demand is given by EF = N x EM.
• Since P = [EF/(1+ EF)] MC,
• Then, P = [NEM/(1+ NEM)] MC.– The greater the number of firms, the lower the
profit-maximizing markup factor.– More elastic the market demand, closer P with MC– Higher MC, higher profit maximizing price under
Cournot oligopoly
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An ExampleAn Example• Homogeneous product Cournot
industry, 3 firms.• MC = $10.• Elasticity of market demand = - ½.• Determine the profit-maximizing price?
• EF = N EM = 3 (-1/2) = -1.5.
• P = [EF/(1+ EF)] MC.
• P = [-1.5/(1- 1.5] $10.• P = 3 $10 = $30.
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Extracting Consumer Surplus: Extracting Consumer Surplus: Moving From Single Price MarketsMoving From Single Price Markets
• Most models examined to this point involve a “single” equilibrium price.
• In reality, there are many different prices being charged in the market.
• Price discrimination is the practice of charging different prices to consumer for the same good to achieve higher prices.
• The three basic forms of price discrimination are:– First-degree (or perfect) price discrimination.– Second-degree price discrimination.– Third-degree price discrimination.
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First-Degree or Perfect First-Degree or Perfect Price DiscriminationPrice Discrimination
• Practice of charging each consumer the maximum amount he or she will pay for each incremental unit.
• Permits a firm to extract all surplus from consumers.
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Perfect Price DiscriminationPerfect Price Discrimination
Price
Quantity
D
10
8
6
4
2
1 2 3 4 5
Profits*:.5(4-0)(10 - 2)
= $16
Total Cost* = $8
MC
* Assuming no fixed costs
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Caveats:Caveats:• In practice, transactions costs and
information constraints make this difficult to implement perfectly (but car dealers and some professionals come close).
• Price discrimination won’t work if consumers can resell the good.
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Second-Degree Second-Degree Price DiscriminationPrice Discrimination
• The practice of posting a discrete schedule of declining prices for different quantities.
• Eliminates the information constraint present in first-degree price discrimination.
• Example: Electric utilities
Price
MC
D
$5
$10
4Quantity
$8
2
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Third-Degree Price Third-Degree Price DiscriminationDiscrimination
• The practice of charging different groups of consumers different prices for the same product.
• Group must have observable characteristics for third-degree price discrimination to work.
• Examples include student discounts, senior citizen’s discounts, regional & international pricing.
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Implementing Third-Degree Implementing Third-Degree Price DiscriminationPrice Discrimination
• Suppose the total demand for a product is comprised of two groups with different elasticities, E1 < E2.
• Notice that group 1 is more price sensitive than group 2.
• Profit-maximizing prices?
• P1 = [E1/(1+ E1)] MC
• P2 = [E2/(1+ E2)] MC
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An ExampleAn Example• Suppose the elasticity of demand for Apex shoes
in the US is EUs = -1.5, and the elasticity of demand in Japan is EJ = -2.5.
• Marginal cost of manufacturing shoe is $3.• PUs = [EUs/(1+ EUs)] MC = [-1.5/(1 - 1.5)] $3 =
$9• PJ = [EJ/(1+ EJ)] MC = [-2.5/(1 - 2.5)] $3 = $5• Apex’s optimal third-degree pricing strategy is to
charge a higher price in the US, where demand is less elastic.
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Two-Part PricingTwo-Part Pricing
• When it isn’t feasible to charge different prices for different units sold, but demand information is known, two-part pricing may permit you to extract all surplus from consumers.
• Two-part pricing consists of a fixed fee and a per unit charge.– Example: Gulshan club memberships.
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How Two-Part Pricing WorksHow Two-Part Pricing Works
1. Set price at marginal cost.
2. Compute consumer surplus.
3. Charge a fixed-fee equal to consumer surplus.
Quantity
D
10
8
6
4
2
4 5 8 10
MC
Fixed Fee = Profits* = $32
Price
Per UnitCharge
* Assuming no fixed costs
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Monopoly Price
Consumer surplus=$8
Consumer surplus = 0
Block PricingBlock Pricing• The practice of packaging multiple
units of an identical product together and selling them as one package.
• Examples– Paper.– Six-packs of soda.– Matchboxes
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An Algebraic ExampleAn Algebraic Example
• Typical consumer’s demand is P = 10 - 2Q
• C(Q) = 2Q• Optimal number of units in a package?• Optimal package price?
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Optimal Quantity To Package: 4 Optimal Quantity To Package: 4 UnitsUnits
Price
Quantity
D
10
8
6
4
2
1 2 3 4 5
MC = AC
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Optimal Price for the Package: Optimal Price for the Package: $24 $24
Price
Quantity
D
10
8
6
4
2
1 2 3 4 5
MC = AC
Consumer’s valuation of 4units = .5(8)(4) + (2)(4) = $24Therefore, set P = $24!
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Costs and Profits with Block Costs and Profits with Block PricingPricing
Price
Quantity
D
10
8
6
4
2
1 2 3 4 5
MC = AC
Profits* = [.5(8)(4) + (2)(4)] – (2)(4)= $16
Costs = (2)(4) = $8
* Assuming no fixed costs
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Commodity BundlingCommodity Bundling
• The practice of bundling two or more products together and charging one price for the bundle.
• Examples– Vacation packages.– Computers and software.– Film and developing.
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An Example that Illustrates An Example that Illustrates Kodak’s MomentKodak’s Moment
• Total market size for film and developing is 4 million consumers.
• Four types of consumers– 25% will use only Kodak film (F).– 25% will use only Kodak developing (D).– 25% will use only Kodak film and use only
Kodak developing (FD).– 25% have no preference (N).
• Zero costs (for simplicity).• Maximum price each type of consumer will pay
is as follows:
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Reservation Prices for Kodak Reservation Prices for Kodak Film and Developing by Type Film and Developing by Type
of Consumerof Consumer
Type Film DevelopingF $8 $3
FD $8 $4D $4 $6N $3 $2
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Optimal Film Price?Optimal Film Price?Type Film Developing
F $8 $3FD $8 $4D $4 $6N $3 $2
At a price of $8; only types F and FD buy resulting in profits of $8 x 2 million = $16 Million.
At a price of $4, only types F, FD, and D will buy (profits of $12 Million).
At a price of $3, all types will buy (profits of $12 Million)
Optimal Price is $8 to earn profit of $8 x 2 million = $16 Million.
.
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Optimal Price for Developing?Optimal Price for Developing?Type Film Developing
F $8 $3FD $8 $4D $4 $6N $3 $2
Optimal Price is $3, to earn profits of $3 x 3 million = $9 Million.
At a price of $6, only “D” type buys (profits of $6 Million).
At a price of $4, only “D” and “FD” types buy (profits of $8 Million).
At a price of $2, all types buy (profits of $8 Million).
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Total Profits by Pricing Each Total Profits by Pricing Each Item Separately?Item Separately?
Type Film DevelopingF $8 $3
FD $8 $4D $4 $6N $3 $2
Total Profit = Film Profits + Development Profits = $16 Million + $9 Million = $25 Million
Surprisingly, the firm can earn even greater profits by bundling!
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Pricing a “Bundle” of Film and Pricing a “Bundle” of Film and DevelopingDeveloping
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Consumer Valuations of a Consumer Valuations of a BundleBundle
Type Film Developing Value of BundleF $8 $3 $11
FD $8 $4 $12D $4 $6 $10N $3 $2 $5
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What’s the Optimal Price for a What’s the Optimal Price for a Bundle?Bundle?
Type Film Developing Value of BundleF $8 $3 $11
FD $8 $4 $12D $4 $6 $10N $3 $2 $5
Optimal Bundle Price = $10 (for profits of $30 million)
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Pricing Strategies for Special Demand Pricing Strategies for Special Demand Situation: Peak-Load PricingSituation: Peak-Load Pricing
• When demand during peak times is higher than the capacity of the firm, the firm should engage in peak-load pricing.
• Charge a higher price (PH) during peak times (DH).
• Charge a lower price (PL)
during off-peak times (DL).
Quantity
PriceMC
MRL
PL
QL QH
DH
MRH
DL
PH
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Cross-SubsidiesCross-Subsidies
• Prices charged for one product are subsidized by the sale of another product.
• May be profitable when there are significant demand complementarities exist.
• Examples– Browser and server software.– Drinks and meals at restaurants.
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Double MarginalizationDouble Marginalization• Consider a large firm with two divisions:
– the upstream division is the sole provider of a key input.– the downstream division uses the input produced by the
upstream division to produce the final output.• Incentives to maximize divisional profits leads the
upstream manager to produce where MRU = MCU.– Implication: PU > MCU.
• Similarly, when the downstream division has market power and has an incentive to maximize divisional profits, the manager will produce where MRD = MCD.– Implication: PD > MCD.
• Thus, both divisions mark price up over marginal cost resulting in in a phenomenon called double marginalization.– Result: less than optimal overall profits for the firm.
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Transfer PricingTransfer Pricing
• To overcome double marginalization, the internal price at which an upstream division sells inputs to a downstream division should be set in order to maximize the overall firm profits.
• To achieve this goal, the upstream division produces such that its marginal cost, MCu, equals the net marginal revenue to the downstream division (NMRd):
NMRd = MRd - MCd = MCu
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Upstream Division’s Upstream Division’s ProblemProblem
• Demand for the final product P = 10 - 2Q.• C(Q) = 2Q.• Suppose the upstream manager sets MR
= MC to maximize profits.• 10 - 4Q = 2, so Q* = 2.• P* = 10 - 2(2) = $6, so upstream
manager charges the downstream division $6 per unit.
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Downstream Division’s ProblemDownstream Division’s Problem
• Demand for the final product P = 10 - 2Q.• Downstream division’s marginal cost is
the $6 charged by the upstream division.• Downstream division sets MR = MC to
maximize profits.• 10 - 4Q = 6, so Q* = 1.• P* = 10 - 2(1) = $8, so downstream
division charges $8 per unit.
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AnalysisAnalysis• This pricing strategy by the upstream division
results in less than optimal profits!• The upstream division needs the price to be $6
and the quantity sold to be 2 units in order to maximize profits. Unfortunately,
• The downstream division sets price at $8, which is too high; only 1 unit is sold at that price.– Downstream division profits are $8 1 – 6(1) = $2.
• The upstream division’s profits are $6 1 - 2(1) = $4 instead of the monopoly profits of $6 2 - 2(2) = $8.
• Overall firm profit is $4 + $2 = $6.
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Upstream Division’s Upstream Division’s “Monopoly Profits”“Monopoly Profits”
Price
Quantity
P = 10 - 2Q
10
8
6
4
2
1 2 3 4 5
MC = AC
MR = 10 - 4Q
Profit = $8
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Upstream’s Profits when Upstream’s Profits when Downstream Marks Price Up to $8Downstream Marks Price Up to $8
Price
Quantity
P = 10 - 2Q
10
8
6
4
2
1 2 3 4 5
MC = AC
MR = 10 - 4Q
Profit = $4DownstreamPrice
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Solutions for the Overall Solutions for the Overall Firm?Firm?
• Provide upstream manager with an incentive to set the optimal transfer price of $2 (upstream division’s marginal cost).
• Overall profit with optimal transfer price:
8$22$26$
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Pricing in Markets with Pricing in Markets with Intense Price CompetitionIntense Price Competition
• Price Matching– Advertising a price and a promise to match any lower price
offered by a competitor.– No firm has an incentive to lower their prices.– Each firm charges the monopoly price and shares the
market.• Induce brand loyalty
– Some consumers will remain “loyal” to a firm; even in the face of price cuts.
– Advertising campaigns and “frequent-user” style programs can help firms induce loyal among consumers.
• Randomized Pricing– A strategy of constantly changing prices.– Decreases consumers’ incentive to shop around as they
cannot learn from experience which firm charges the lowest price.
– Reduces the ability of rival firms to undercut a firm’s prices.
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ConclusionConclusion• First degree price discrimination, block pricing,
and two part pricing permit a firm to extract all consumer surplus.
• Commodity bundling, second-degree and third degree price discrimination permit a firm to extract some (but not all) consumer surplus.
• Simple markup rules are the easiest to implement, but leave consumers with the most surplus and may result in double-marginalization.
• Different strategies require different information.
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